CN207304432U - A kind of dead-weight photovoltaic bracket - Google Patents

Abstract

The utility model discloses a kind of dead-weight photovoltaic bracket, including heavy burden component, gusseted component, inclined support bar afterwards, crossbeam and briquetting component, gusseted component is equiped with heavy burden component and is bolted, gusseted component includes triangle bottom fine strain of millet, triangle carries on the back fine strain of millet, triangular aslant fine strain of millet and skewed horizontal load reinforcing rib, fine strain of millet is carried on the back with triangle in triangle bottom fine strain of millet both ends respectively, triangular aslant fine strain of millet is bolted to connection, triangle carries on the back the fine strain of millet other end and the other end of triangular aslant fine strain of millet is bolted to connection, it is connected with skewed horizontal load reinforcing rib between triangle bottom fine strain of millet and triangular aslant fine strain of millet in turn, skewed horizontal load reinforcing rib is set in parallel with triangular aslant fine strain of millet, inclined support bar one end is fixedly connected with triangle back of the body fine strain of millet afterwards, the inclined support bar other end is fixedly connected with crossbeam afterwards, dress is arranged with crossbeam on gusseted component, briquetting component is equiped with crossbeam.The utility model structure design advantages of simple, each strength of parts is high, and connection and stability of strutting system are splendid, are easily installed and dismantle.

Description

A kind of dead-weight photovoltaic bracket

Technical field

It the utility model is related to the technical field of photovoltaic bracket, more particularly to a kind of dead-weight photovoltaic bracket.

Background technology

Solar photovoltaic bracket, be in solar photovoltaic generation system in order to put, install, fixed solar panel design Special stent.Existing dead-weight photovoltaic support structure design is unreasonable, and each strength of parts is poor, connection and stability of strutting system Bad, there are security risk；And the photovoltaic bracket of in the market assembling when usually by weld etc. mode so that cause assembling imitate Rate is low, is not easy to dismantle, of high cost, it is impossible to meet the market demand.

The content of the invention

Problem to be solved in the utility model there is provided a kind of structure design advantages of simple, and each strength of parts is high, connection Dead-weight photovoltaic bracket splendid with stability of strutting system, being easily installed and dismantle.

To solve the above-mentioned problems, the utility model provides a kind of dead-weight photovoltaic bracket, including heavy burden component, triangle Support component, rear inclined support bar, crossbeam and briquetting component, are equiped with gusseted component on the heavy burden component and pass through bolt Fixed, the gusseted component includes triangle bottom fine strain of millet, triangle back of the body fine strain of millet, triangular aslant fine strain of millet and skewed horizontal load reinforcing rib, the triangle Bottom fine strain of millet both ends are bolted to connection with triangle back of the body fine strain of millet, triangular aslant fine strain of millet respectively, the triangle back of the body fine strain of millet other end and triangular aslant fine strain of millet The other end be bolted to connection, be connected with skewed horizontal load reinforcing rib, institute between triangle bottom fine strain of millet and triangular aslant fine strain of millet in turn State skewed horizontal load reinforcing rib to be set in parallel with triangular aslant fine strain of millet, described rear inclined support bar one end is fixedly connected with triangle back of the body fine strain of millet, institute State the rear inclined support bar other end to be fixedly connected with crossbeam, filled on the gusseted component and be arranged with crossbeam, on the crossbeam It is equiped with briquetting component.

As further improvement of the utility model, photovoltaic module, the photovoltaic module clamping are equiped with the crossbeam In in briquetting component.

As further improvement of the utility model, pull rod is equiped between the crossbeam and is fixed by locked spacer.

As further improvement of the utility model, the crossbeam bottom is equiped with rear diagonal brace connector, the branch of retreading Strut is connected with rear diagonal brace connector.

As further improvement of the utility model, the skewed horizontal load reinforcing rib is equipped with least eight.

As further improvement of the utility model, the heavy burden component is made of cement or concrete.

As further improvement of the utility model, the gusseted component, rear inclined support bar, crossbeam, pull rod and pressure Block assembly is an integral molding structure by stainless steel or aluminium alloy casting.

Using the above structure, its advantage is：

The utility model structure design advantages of simple, is equiped with gusseted component on heavy burden component and is consolidated by bolt Fixed, gusseted component can effectively increase integrally-built stability and connectivity, gusseted component include triangle bottom fine strain of millet, Triangle back of the body fine strain of millet, triangular aslant fine strain of millet and skewed horizontal load reinforcing rib, triangle bottom fine strain of millet both ends pass through bolt with triangle back of the body fine strain of millet, triangular aslant fine strain of millet respectively It is fixedly connected, the triangle back of the body fine strain of millet other end and the other end of triangular aslant fine strain of millet are bolted to connection, and are bolted to connection energy The stationarity of enough connections for effectively ensureing each component, while dismounting and adjustment are easily installed, between triangle bottom fine strain of millet and triangular aslant fine strain of millet It is connected with skewed horizontal load reinforcing rib in turn, skewed horizontal load reinforcing rib is set in parallel with triangular aslant fine strain of millet, and skewed horizontal load reinforcing rib can Increase the intensity of gusseted group entirety, closely further ensure the support performance of gusseted component；Inclined support bar one end afterwards It is fixedly connected with triangle back of the body fine strain of millet, the rear inclined support bar other end is fixedly connected with crossbeam, and rear inclined support bar plays support triangle branch Support component and horizontal beam action, further improve the stability that gusseted component is connected with crossbeam, on gusseted component Dress is arranged with crossbeam, briquetting component is equiped with crossbeam, photovoltaic module is connected in briquetting component, both ensure that photovoltaic module The stationarity connected with briquetting component, while dismounting and adjustment are easily installed again；Heavy burden component is made of cement or concrete, It can effectively ensure that the overall intensity of heavy burden component, gusseted component, rear inclined support bar, crossbeam, pull rod and briquetting group By stainless steel, either aluminium alloy casting is an integral molding structure stainless steel to part or corrosive protection of aluminium alloy corrosion is good, and intensity is high, effectively The stability that ensure that stent entirety.

Brief description of the drawings

Fig. 1 is the structure diagram of the utility model dead-weight photovoltaic bracket.

In figure：1- heavy burden components, 2- gusseted components, 2-1 triangles bottom fine strain of millet, 2-2 triangles back of the body fine strain of millet, 2-3 triangular aslant fine strains of millet, 2- 4 skewed horizontal load reinforcing ribs, inclined support bar after 3-, 4- crossbeams, 5- pull rods, 6- briquetting components, 7- photovoltaic modulies, 8- locked spacers, Diagonal brace connector after 9-.

Embodiment

Explanation that the utility model is further explained with reference to the accompanying drawings and examples.

As shown in Figure 1, a kind of dead-weight photovoltaic bracket, including heavy burden component 1, gusseted component 2, rear inclined support bar 3, Crossbeam 4 and briquetting component 6, are equiped with gusseted component 2 on the heavy burden component 1 and are bolted, the triangle branch Support component 2 includes triangle bottom fine strain of millet 2-1, triangle back of the body fine strain of millet 2-2, triangular aslant fine strain of millet 2-3 and skewed horizontal load reinforcing rib 2-4, the triangle bottom Fine strain of millet 2-1 both ends are bolted to connection with triangle back of the body fine strain of millet 2-2, triangular aslant fine strain of millet 2-3 respectively, and the triangle carries on the back the fine strain of millet 2-2 other ends It is bolted to connection with the other end of triangular aslant fine strain of millet 2-3, is sequentially connected between the triangle bottom fine strain of millet 2-1 and triangular aslant fine strain of millet 2-3 There is skewed horizontal load reinforcing rib 2-4, the skewed horizontal load reinforcing rib 2-4 to be set in parallel with triangular aslant fine strain of millet 2-3, it is described after bearing diagonal 3 one end of bar is fixedly connected with triangle back of the body fine strain of millet 2-2, and rear 3 other end of inclined support bar is fixedly connected with crossbeam 4, the triangle branch Dress is arranged with crossbeam 4 on support component 2, and briquetting component 6 is equiped with the crossbeam 4.

Photovoltaic module 7 is equiped with crossbeam 4, the photovoltaic module 7 is connected in briquetting component 6, and drawing is equiped between crossbeam 4 Bar 5 is simultaneously fixed by locked spacer 8, and 4 bottom of crossbeam is equiped with rear diagonal brace connector 9, and the rear inclined support bar 3 connects with rear diagonal brace Fitting 9 is connected.

Skewed horizontal load reinforcing rib 2-4 is equipped with least eight, and the heavy burden component 1 is made of cement or concrete, and described three Angle support component 2, rear inclined support bar 3, crossbeam 4, pull rod 5 and briquetting component 6 are integrated into by stainless steel or aluminium alloy casting Type structure.

Installation process：Heavy burden component 1 is laid on roof, triangle bottom fine strain of millet 2-1 is then installed on heavy burden component 1 and is passed through Bolt is fixed, and triangle bottom fine strain of millet 2-1 is connected with each other and is bolted with triangle back of the body fine strain of millet 2-2 and triangular aslant fine strain of millet 2-3, then repeatedly Crossbeam 4 is installed in angle support component 2 and is fixed by outer-hexagonal bolt combination, after then being installed on triangle back beam 2-2, is retreaded Support supporting rod 3 is connected with the rear diagonal brace connector 9 of 4 bottom of crossbeam to be fixed using bolt, and pull rod 5 is installed between latter two right crossbeam 4 Fixed with bolt and locked spacer 8, then briquetting component 6 will be installed on crossbeam 4, most photovoltaic module 7 is connected in briquetting component 6 at last It is interior.

The above is the example and explanation of the utility model, but does not mean that the obtainable advantage of the utility model by this Limit, may be excellent to being realized in the simple transformation of structure, and/or some embodiments in every the utility model practice process Wherein one or more of point are in the protection domain of the application.

Claims (7)

1. A kind of 1. dead-weight photovoltaic bracket, it is characterised in that：Including heavy burden component（1）, gusseted component（2）, rear bearing diagonal Bar（3）, crossbeam（4）And briquetting component（6）, the heavy burden component（1）On be equiped with gusseted component（2）And consolidated by bolt It is fixed, the gusseted component（2）Including triangle bottom fine strain of millet（2-1）, triangle the back of the body fine strain of millet（2-2）, triangular aslant fine strain of millet（2-3）And skewed horizontal load Reinforcing rib（2-4）, triangle bottom fine strain of millet（2-1）Fine strain of millet is carried on the back with triangle in both ends respectively（2-2）, triangular aslant fine strain of millet（2-3）Consolidated by bolt Fixed connection, the triangle carry on the back fine strain of millet（2-2）The other end and triangular aslant fine strain of millet（2-3）The other end be bolted to connection, described three Angle bottom fine strain of millet（2-1）With triangular aslant fine strain of millet（2-3）Between be connected with skewed horizontal load reinforcing rib in turn（2-4）, the skewed horizontal load reinforcing rib （2-4）With triangular aslant fine strain of millet（2-3）It is set in parallel, the rear inclined support bar（3）One end and triangle back of the body fine strain of millet（2-2）It is fixedly connected, Inclined support bar after described（3）The other end and crossbeam（4）It is fixedly connected, the gusseted component（2）Upper dress is arranged with crossbeam （4）, the crossbeam（4）On be equiped with briquetting component（6）.
2. 2. dead-weight photovoltaic bracket according to claim 1, it is characterised in that：The crossbeam（4）On be equiped with photovoltaic group Part（7）, the photovoltaic module（7）It is connected in briquetting component（6）It is interior.
3. 3. dead-weight photovoltaic bracket according to claim 1, it is characterised in that：The crossbeam（4）Between be equiped with pull rod（5） And pass through locked spacer（8）It is fixed.
4. 4. dead-weight photovoltaic bracket according to claim 1, it is characterised in that：The crossbeam（4）Bottom, which is equiped with, retreads Support connector（9）, the rear inclined support bar（3）With rear diagonal brace connector（9）It is connected.
5. 5. dead-weight photovoltaic bracket according to claim 1, it is characterised in that：The skewed horizontal load reinforcing rib（2-4）If There is at least eight.
6. 6. dead-weight photovoltaic bracket according to claim 1, it is characterised in that：The heavy burden component（1）By cement or Concrete is made.
7. 7. dead-weight photovoltaic bracket according to claim 1, it is characterised in that：The gusseted component（2）, branch of retreading Strut（3）, crossbeam（4）, pull rod（5）And briquetting component（6）It is an integral molding structure by stainless steel or aluminium alloy casting.